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Corridors restore animal-mediated pollination in fragmented tropical forest landscapes

Kormann, Urs ; Scherber, Christoph ; Tscharntke, Teja ; [et al.]

The Royal Society ; 2016

In: Proceedings of the Royal Society B: Biological Sciences Vol. 283, No. 1823 ( 2016-01-27), p. 20152347-

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In: Proceedings of the Royal Society B: Biological Sciences, The Royal Society, Vol. 283, No. 1823 ( 2016-01-27), p. 20152347-

Abstract: Tropical biodiversity and associated ecosystem functions have become heavily eroded through habitat loss. Animal-mediated pollination is required in more than 94% of higher tropical plant species and 75% of the world's leading food crops, but it remains unclear if corridors avert deforestation-driven pollination breakdown in fragmented tropical landscapes. Here, we used manipulative resource experiments and field observations to show that corridors functionally connect neotropical forest fragments for forest-associated hummingbirds and increase pollen transfer. Further, corridors boosted forest-associated pollinator availability in fragments by 14.3 times compared with unconnected equivalents, increasing overall pollination success . Plants in patches without corridors showed pollination rates equal to bagged control flowers, indicating pollination failure in isolated fragments. This indicates, for the first time, that corridors benefit tropical forest ecosystems beyond boosting local species richness, by functionally connecting mutualistic network partners. We conclude that small-scale adjustments to landscape configuration safeguard native pollinators and associated pollination services in tropical forest landscapes.

Type of Medium: Online Resource

ISSN: 0962-8452 , 1471-2954

URL: Article

DOI: 10.1098/rspb.2015.2347

Language: English

Publisher: The Royal Society

Publication Date: 2016

detail.hit.zdb_id: 1460975-7

SSG: 12

SSG: 25

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Diet composition and social environment determine food consumption, phenotype and fecundity in an omnivorous insect

Gutiérrez, Yeisson ; Fresch, Marion ; Ott, David ; [et al.]

The Royal Society ; 2020

In: Royal Society Open Science Vol. 7, No. 4 ( 2020-04), p. 200100-

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In: Royal Society Open Science, The Royal Society, Vol. 7, No. 4 ( 2020-04), p. 200100-

Abstract: Nutrition is the single most important factor for individual's growth and reproduction. Consequently, the inability to reach the nutritional optimum imposes severe consequences for animal fitness. Yet, under natural conditions, organisms may face a mixture of stressors that can modulate the effects of nutritional asymmetry. For instance, stressful environments caused by intense interaction with conspecifics. Here, we subjected the house cricket Acheta domesticus to (i) either of two types of diet that have proved to affect cricket performance and (ii) simultaneously manipulated their social environment throughout their complete life cycle. We aimed to track sex-specific consequences for multiple traits during insect development throughout all life stages. Both factors affected critical life-history traits with potential population-level consequences: diet composition induced strong effects on insect development time, lifespan and fitness, while the social environment affected the number of nymphs that completed development, food consumption and whole-body lipid content. Additionally, both factors interactively determined female body mass. Our results highlight that insects may acquire and invest resources in a different manner when subjected to an intense interaction with conspecifics or when isolated. Furthermore, while only diet composition affected individual reproductive output, the social environment would determine the number of reproductive females, thus indirectly influencing population performance.

Type of Medium: Online Resource

ISSN: 2054-5703

URL: Article

DOI: 10.1098/rsos.200100

Language: English

Publisher: The Royal Society

Publication Date: 2020

detail.hit.zdb_id: 2787755-3

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Consistent drivers of plant biodiversity across managed ecosystems

Minden, Vanessa ; Scherber, Christoph ; Cebrián Piqueras, Miguel A. ; [et al.]

The Royal Society ; 2016

In: Philosophical Transactions of the Royal Society B: Biological Sciences Vol. 371, No. 1694 ( 2016-05-19), p. 20150284-

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In: Philosophical Transactions of the Royal Society B: Biological Sciences, The Royal Society, Vol. 371, No. 1694 ( 2016-05-19), p. 20150284-

Abstract: Ecosystems managed for production of biomass are often characterized by low biodiversity because management aims to optimize single ecosystem functions (i.e. yield) involving deliberate selection of species or cultivars. In consequence, considerable differences in observed plant species richness and productivity remain across systems, and the drivers of these differences have remained poorly resolved so far. In addition, it has remained unclear if species richness feeds back on ecosystem functions such as yield in real-world systems. Here, we establish N = 360 experimental plots across a broad range of managed ecosystems in several European countries, and use structural equation models to unravel potential drivers of plant species richness. We hypothesize that the relationships between productivity, total biomass and observed species richness are affected by management intensity, and that these effects differ between habitat types (dry grasslands, grasslands, and wetlands). We found that local management was an important driver of species richness across systems. Management caused system disturbance, resulting in reduced productivity yet enhanced total biomass. Plant species richness was directly and positively driven by management, with consistently negative effects of total biomass. Productivity effects on richness were positive, negative or neutral. Our study shows that management and total biomass drive plant species richness across real-world managed systems.

Type of Medium: Online Resource

ISSN: 0962-8436 , 1471-2970

URL: Article

DOI: 10.1098/rstb.2015.0284

RVK:

WA 15000

Language: English

Publisher: The Royal Society

Publication Date: 2016

detail.hit.zdb_id: 1462620-2

SSG: 12

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